ORIGINAL ARTICLE
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Albumin and fibrinogen levels’ relation with orthopedics traumatic patients’ outcome after massive transfusion Mohammadreza Bazavar, Ali Tabrizi, Naghi Abedini1, Asghar Elmi
A B S T R A C T Background: Severe bleeding is common during limb trauma. It can lead to hemorrhagic shock required to massive blood transfusion. Coagulopathy is the major complication of massive transfusion-induced increased mortality rate. Aim of this study was evaluation of fibrinogen and albumin levels association with orthopedics traumatic patients’ outcome who received massive transfusion. Methods: In a cross sectional study, 23 patients with severe limb injury admitted to orthopedic emergency department were studied. All the patients received massive transfusion, that is, >10 unit blood. Albumin and fibrinogen levels are measured at admission and 24 h later, and compared according to final outcome. Results: Twenty-three traumatic patients with severe limb injuries were studied, out of which ten (43.2%) died and 13 (56.8%) were alive. There was significant difference between patients outcome in fibrinogen level after 24 h, but no difference was observed in albumin levels. Based on regression model, fibrinogen after 24 h had a significant role in determining the final outcome in traumatic patients who received massive transfusion (odds ratio 0.48, 95% confidence interval 0.15–0.92, P = 0.02). Conclusions: According to our results, fibrinogen level is the most important factor in determination of orthopedics traumatic patients when received massive transfusion. However, serum albumin does not play any role in patients’ outcome.
Departments of Orthopedics Surgery, 1Anesthesia, Shohada Educational Hospital, Tabriz University of Medical Sciences, Tabriz, Iran
Address for correspondence: Dr. Mohmmadreza Bazavar, Golshahr Avenue, Shohada Educational Hospital Orthopedics Surgery Center of Tabriz University of Medical Science, Tabriz, Iran. E-mail: [email protected]
Key words: Albumin, coagulopathy, fibrinogen, massive blood transfusion
INTRODUCTION Trauma is the most cause of death in young age. [1] Hemorrhagic shock and exsanguination are responsible for a large number of these deaths, accounting for more than 80% of deaths in the operating room and nearly 50% of deaths in the first 24 h after injury.[2,3] According to available reports less than 5% of civilian trauma patient admissions will require a massive transfusion.[1,2] Coagulation defects related to severe trauma is a major complication.[3,4] Factors can be related to coagulation including major blood loss with consumption of clotting factors and platelets and dilutional coagulopathy after administration of crystalloids and colloids to maintain blood Access this article online Quick Response Code:
Website: www.saudija.org
DOI: 10.4103/1658-354X.125915
Vol. 8, Issue 1, January-March 2014
pressure. Fibrinogen is also a positive acute-phase protein whose level reportedly increases in inflammatory disease, infection, or tissue damage.[4] The trauma coagulopathy is associated with patients mortality.[5] Also during severe trauma, the most typical changes included a depressed muscle protein synthesis, an increased synthesis of total liver proteins and positive acute-phase proteins, and decreased synthesis of negative acute-phase proteins like albumin.[6] Aim of this study was evaluation of fibrinogen and albumin levels and their association with orthopedics traumatic patients’ outcome who received massive transfusion. METHODS A cross sectional study was conducted at Trauma Center of Northwestern Iran (Shohada Hospital affiliated to Tabriz University of Medical Sciences) from 2009 to 2012. In this study, 23 patients with severe crushed limb injury who referred to our trauma center were studied. Those meeting the inclusion criteria were invited to participate and provided informed consent. Inclusion criteria were younger patients (under 60 years), injury severity scores more than 15, patients Saudi Journal of Anesthesia
Bazavar, et al.: Albumin and fibrinogen levels’ relation with orthopedics traumatic patients
needed to be taken at intensive care unit, and received massive blood transfusion (defined as ≥10 units of packed red blood cells). The excluded patients were head trauma or spinal cord injuries or trunk trauma, smoking positive, metabolic or systemic disease, and history of pervious blood transfusion. In all patients, the initial resuscitation was performed as soon as admitted to the emergency room. Blood samples were obtained at admission and after 24 h. Part of the serum was frozen and stored at –70°C for determination of fibrinogen and albumin by an immunoturbidometric assay. Electrolytes, hemoglobin, and hematocrit levels were measured on admission. For early restoration, normal saline or ringer was used, clinical events were recorded thereafter until death or hospital discharge. Statistical analysis
Descriptive statistical method (frequency, percentage), mean ± standard deviation, and Statistical Packages for Social Sciences (SPSS), version 17 for Windows software were used to statistically analyze the data. Comparison of variable changes between two patients’ outcome was used by independent t-test. Regression model was used to determine the role of variables on patients’ outcome. In this study, P < 0.05 was regarded meaningful. RESULTS Twenty-three traumatic patients with severe limb injuries, including two women and 21 men (between 20 and 60 year) with mean age of 36.3 years completed this study. All patients had received more than 10 units of blood. Out of 23, 10 traumatic patients (43.2%) died and 13 patients (56.8%) were alive. Laboratory findings are shown in Table 1. There was significant a difference between two groups of patients’ outcome according to fibrinogen plasma levels after 24 h, but there was no difference in albumin levels. Based on regression model, fibrinogen after 24 h had a significant role in determining the final outcome in traumatic patients who received massive transfusion (odds ratio (OR) = 0.48, 95% confidence interval (CI) = 0.15–0.92, P = 0.02). The average time of death was 56.5 ± 10.8, 24 h after hospitalization. There was no difference in other laboratory parameters. DISCUSSION Massive bleeding leads to loss, consumption, and dilution (by volume therapy) of coagulation factors.[7] The first factor critically decreased is fibrinogen.[8] The aim of any hemostatic therapy is to minimize blood loss and transfusion requirements. Increased transfusion need is known to Saudi Journal of Anesthesia
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Table 1: Comparison of laboratory and clinical findings between two groups of traumatic patients (dead and alive)
Age ISS score Hemoglobin (g/dl) Fibrinogen at admission (mg/dl) Fibrinogen after 24h (mg/dl) Albumin at admission (g/dl) Albumin after 24h (g/dl)
Dead patients (n=10) 38.4±11.5 27.5±1.4 9.1±1.4 46.5±12.4 124.5±18.9 33.5±1.4 31.7±2.1
Alive patients (n=13) 37.6±10.7 26.8±1.2 9.2±0.8 48.4±11.4 85.6±14.5 34.6±2.1 32.4±1.8
P-value
0.6 0.09 0.1 0.2
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Albumin and fibrinogen levels’ relation with orthopedics traumatic patients’ outcome after massive transfusion Mohammadreza Bazavar, Ali Tabrizi, Naghi Abedini1, Asghar Elmi
A B S T R A C T Background: Severe bleeding is common during limb trauma. It can lead to hemorrhagic shock required to massive blood transfusion. Coagulopathy is the major complication of massive transfusion-induced increased mortality rate. Aim of this study was evaluation of fibrinogen and albumin levels association with orthopedics traumatic patients’ outcome who received massive transfusion. Methods: In a cross sectional study, 23 patients with severe limb injury admitted to orthopedic emergency department were studied. All the patients received massive transfusion, that is, >10 unit blood. Albumin and fibrinogen levels are measured at admission and 24 h later, and compared according to final outcome. Results: Twenty-three traumatic patients with severe limb injuries were studied, out of which ten (43.2%) died and 13 (56.8%) were alive. There was significant difference between patients outcome in fibrinogen level after 24 h, but no difference was observed in albumin levels. Based on regression model, fibrinogen after 24 h had a significant role in determining the final outcome in traumatic patients who received massive transfusion (odds ratio 0.48, 95% confidence interval 0.15–0.92, P = 0.02). Conclusions: According to our results, fibrinogen level is the most important factor in determination of orthopedics traumatic patients when received massive transfusion. However, serum albumin does not play any role in patients’ outcome.
Departments of Orthopedics Surgery, 1Anesthesia, Shohada Educational Hospital, Tabriz University of Medical Sciences, Tabriz, Iran
Address for correspondence: Dr. Mohmmadreza Bazavar, Golshahr Avenue, Shohada Educational Hospital Orthopedics Surgery Center of Tabriz University of Medical Science, Tabriz, Iran. E-mail: [email protected]
Key words: Albumin, coagulopathy, fibrinogen, massive blood transfusion
INTRODUCTION Trauma is the most cause of death in young age. [1] Hemorrhagic shock and exsanguination are responsible for a large number of these deaths, accounting for more than 80% of deaths in the operating room and nearly 50% of deaths in the first 24 h after injury.[2,3] According to available reports less than 5% of civilian trauma patient admissions will require a massive transfusion.[1,2] Coagulation defects related to severe trauma is a major complication.[3,4] Factors can be related to coagulation including major blood loss with consumption of clotting factors and platelets and dilutional coagulopathy after administration of crystalloids and colloids to maintain blood Access this article online Quick Response Code:
Website: www.saudija.org
DOI: 10.4103/1658-354X.125915
Vol. 8, Issue 1, January-March 2014
pressure. Fibrinogen is also a positive acute-phase protein whose level reportedly increases in inflammatory disease, infection, or tissue damage.[4] The trauma coagulopathy is associated with patients mortality.[5] Also during severe trauma, the most typical changes included a depressed muscle protein synthesis, an increased synthesis of total liver proteins and positive acute-phase proteins, and decreased synthesis of negative acute-phase proteins like albumin.[6] Aim of this study was evaluation of fibrinogen and albumin levels and their association with orthopedics traumatic patients’ outcome who received massive transfusion. METHODS A cross sectional study was conducted at Trauma Center of Northwestern Iran (Shohada Hospital affiliated to Tabriz University of Medical Sciences) from 2009 to 2012. In this study, 23 patients with severe crushed limb injury who referred to our trauma center were studied. Those meeting the inclusion criteria were invited to participate and provided informed consent. Inclusion criteria were younger patients (under 60 years), injury severity scores more than 15, patients Saudi Journal of Anesthesia
Bazavar, et al.: Albumin and fibrinogen levels’ relation with orthopedics traumatic patients
needed to be taken at intensive care unit, and received massive blood transfusion (defined as ≥10 units of packed red blood cells). The excluded patients were head trauma or spinal cord injuries or trunk trauma, smoking positive, metabolic or systemic disease, and history of pervious blood transfusion. In all patients, the initial resuscitation was performed as soon as admitted to the emergency room. Blood samples were obtained at admission and after 24 h. Part of the serum was frozen and stored at –70°C for determination of fibrinogen and albumin by an immunoturbidometric assay. Electrolytes, hemoglobin, and hematocrit levels were measured on admission. For early restoration, normal saline or ringer was used, clinical events were recorded thereafter until death or hospital discharge. Statistical analysis
Descriptive statistical method (frequency, percentage), mean ± standard deviation, and Statistical Packages for Social Sciences (SPSS), version 17 for Windows software were used to statistically analyze the data. Comparison of variable changes between two patients’ outcome was used by independent t-test. Regression model was used to determine the role of variables on patients’ outcome. In this study, P < 0.05 was regarded meaningful. RESULTS Twenty-three traumatic patients with severe limb injuries, including two women and 21 men (between 20 and 60 year) with mean age of 36.3 years completed this study. All patients had received more than 10 units of blood. Out of 23, 10 traumatic patients (43.2%) died and 13 patients (56.8%) were alive. Laboratory findings are shown in Table 1. There was significant a difference between two groups of patients’ outcome according to fibrinogen plasma levels after 24 h, but there was no difference in albumin levels. Based on regression model, fibrinogen after 24 h had a significant role in determining the final outcome in traumatic patients who received massive transfusion (odds ratio (OR) = 0.48, 95% confidence interval (CI) = 0.15–0.92, P = 0.02). The average time of death was 56.5 ± 10.8, 24 h after hospitalization. There was no difference in other laboratory parameters. DISCUSSION Massive bleeding leads to loss, consumption, and dilution (by volume therapy) of coagulation factors.[7] The first factor critically decreased is fibrinogen.[8] The aim of any hemostatic therapy is to minimize blood loss and transfusion requirements. Increased transfusion need is known to Saudi Journal of Anesthesia
Page | 23
Table 1: Comparison of laboratory and clinical findings between two groups of traumatic patients (dead and alive)
Age ISS score Hemoglobin (g/dl) Fibrinogen at admission (mg/dl) Fibrinogen after 24h (mg/dl) Albumin at admission (g/dl) Albumin after 24h (g/dl)
Dead patients (n=10) 38.4±11.5 27.5±1.4 9.1±1.4 46.5±12.4 124.5±18.9 33.5±1.4 31.7±2.1
Alive patients (n=13) 37.6±10.7 26.8±1.2 9.2±0.8 48.4±11.4 85.6±14.5 34.6±2.1 32.4±1.8
P-value
0.6 0.09 0.1 0.2
